[1] [1] Koechner W. Solidstate laser engineering[M]. New Yk: Springer, 2006: 3537, 5461, 119125, 188190, 442445, 488493, 515522.

[2] Li Xuepeng, Yang Jing, Yan Xingwei, . Hundred-watt level VCSEL-pumped laser with near diffraction limit beam quality[J]. High Power Laser and Particle Beams, 34, 081004(2022).

[3] Kalichevsky-Dong M T, Ge Wenping, Hawkins T W, et al. 4.8 mJ pulse energy directly from single-mode Q-switched ytterbium fiber lasers[J]. Optics Express, 29, 30384(2021).

[4] Zhang Shubao, Guo Lin, Li Menglong, et al. High-power near diffraction-limited 1064-nm Nd: YAG rod laser and second harmonic generation by intracavity-frequency-doubling[J]. Chinese Optics Letters, 10, 45-48(2012).

[5] [5] Honea E C, Beach R J, Mitchell S C, et al. Dualrod Yb: YAG laser f highpower highbrightness applications[C]Advanced Solid State Lasers 2000. Davos, Switzerl: Optica Publishing Group, 2000: MA6.

[6] [6] Stolzenburg C, Giesen A, Butze F, et al. Cavitydumped intracavityfrequencydoubled Yb: YAG thin disk laser at 100 kHz repetition rate[C]Advanced SolidState Photonics 2007. Vancouver, Canada: Optica Publishing Group, 2007: TuC4.

[7] Fu Xing, Liu Q, Yan Xianghe, et al. 120 W high repetition rate Nd: YVO₄ MOPA laser with a Nd: YAG cavity-dumped seed laser[J]. Applied Physics B, 95, 63-67(2009).

[8] Yu Jin, Zhang Xue, Liu Yang, . Laser diode end-pumped accousto-optical Q-switched Nd: YVO₄ laser with high power and high slope efficiency[J]. High Power Laser and Particle Beams, 23, 285-289(2011).

[9] [9] Wang Zijian, Jin Guangyong, Yu Yongji, et al. High repetitionrate sht pulsewidth 1064nm laser in a composite crystal device[C]Proceedings of SPIE 9295, International Symposium on Optoelectronic Technology Application 2014: Laser Materials Processing MicroNano Technologies. 2014: 92950L.

[10] Zhang Wenqi, Shen Yijie, Meng Yuan, et al. Quasi-single-crystal-fiber acousto-optic Q-switched tandem dual Nd: YVO₄ thin rods laser[J]. Applied Optics, 56, 7512-7517(2017).

[11] Li Xudong, Yu Xin, Chen Fei, et al. Power scaling of directly dual-end-pumped Nd: GdVO₄ laser using grown-together composite crystal[J]. Optics Express, 18, 7407-7014(2010).

[12] Yu Xinghuo, Wang Cheng, Ma Yufei, et al. Performance improvement of high repetition rate electro-optical cavity-dumped Nd: GdVO₄ laser[J]. Applied Physics B, 106, 309-313(2012).

[13] Shi Zhaohui, Zhang Jing, Niu Gang, . High repetition rate AO Q-switching of double end pumped Nd: YVO₄ all-solid-state laser[J]. Laser & Infrared, 36, 635-638(2006).

[14] Omatsu T, Isogami T, Minassian A, et al. >100kHz Q-switched operation in transversely diode-pumped ceramic Nd³⁺: YAG laser in bounce geometry[J]. Optics Communications, 249, 531-537(2005).

[15] Liu Ke, Li Fangqin, Xu H Y, et al. High-power high-efficiency acousto-optically Q-switched rod Nd: YAG laser with 885nm diode laser pumping[J]. Optics Communications, 286, 291-294(2013).

[16] Geng Aicong, Zhao Ci, Bo Yong, . A method for measuring thermal focal length of LD-side-pumped laser crystal[J]. Acta Physica Sinica, 57, 6987-6991(2008).

[17] [17] Guo Yading. Research on highpower solid state laser[D]. Beijing: University of Chinese Academy of Sciences, 2020: 4448

[18] [18] Feng Yan, Bi Yong, Xu Zuyan, et al. Thermally nearunstable cavity design f solid state lasers[C]Proceedings of SPIE 4969, Laser Resonats Beam Control VI. 2003: 227232.

[19] [19] Lv Baida. Laser optics: beam acterization, propagation transfmation, resonat technology physics[M]. 3rd ed. Beijing: Higher Education Press, 2003: 361

[20] [20] Yang Tianli, Yang Jing, Zhou Wangzhe, et al. Kilowattlevel 100 kHz nanosecond pulsed laser amplifier via a 205watt seeding[C]Proceedings of SPIE 12459, Sixth International Symposium on Laser Interaction with Matter. 2022: 1245915.